Description
Specifications Table
Product Name – Lithium aluminum oxide
Quantity/Pack Size – 50g, 250g, 1kg
Form – Powder
Grade – Laboratory Grade
Application – Catalyst, adsorbent, high-temperature applications
Product Overview
Lithium aluminum oxide is a highly efficient inorganic compound widely used in laboratory settings due to its exceptional thermal stability and catalytic properties. This fine, white powder is synthesized under controlled conditions to ensure high purity, making it ideal for demanding applications where consistency and performance are critical. Its unique crystalline structure provides a high surface area, enhancing its effectiveness as a catalyst in chemical reactions and as an adsorbent for gas purification. The compound is also known for its resistance to thermal shock, allowing it to maintain structural integrity even under extreme temperature fluctuations. Whether used in high-temperature processes or as a support material in catalytic systems, lithium aluminum oxide delivers reliable results, ensuring reproducibility in experimental setups. Its non-toxic nature and chemical inertness further contribute to its versatility, making it a preferred choice for researchers and lab professionals seeking a dependable reagent for specialized applications.
FAQs
1. What is the chemical formula of lithium aluminum oxide?
Lithium aluminum oxide is commonly represented as LiAlO2, though its exact stoichiometry can vary depending on the synthesis method and intended application.
2. Is this compound compatible with aqueous solutions?
Lithium aluminum oxide is generally stable in dry conditions but may react slowly with water or moist environments, leading to hydrolysis over time.
3. What are the key storage conditions for maintaining its purity?
Store in a cool, dry place in an airtight container to prevent moisture absorption and contamination, which can degrade its performance.
4. Can it be used as a substitute for other aluminum-based catalysts?
While it shares some properties with other aluminum oxides, its lithium content provides distinct catalytic behavior, so direct substitution may require adjustments.
5. How is the purity of this product verified?
Purity is typically confirmed through techniques like X-ray diffraction (XRD) and inductively coupled plasma (ICP) analysis to ensure minimal impurities.
